JPWO2022070437A5 - - Google Patents

Description

但し、
Ａｃ１：前記出射光の波長をλと定義した場合に（（（４／π）×Ｆ１×λ）／２） ^２ ×πで表現されるパラメータ
Ａｍ１：前記第１の測定条件としての前記第１の２次元イメージセンサの画素ピッチをｐ１と定義した場合にｐ１ ^２ で表現されるパラメータ
ｅｒｆ：標準誤差関数

但し、
Ａｃ２：前記出射光の波長をλと定義した場合に（（（４／π）×Ｆ２×λ）／２） ^２ ×πで表現されるパラメータ
Ａｍ２：前記第２の測定条件としての前記第２の２次元イメージセンサの画素ピッチをｐ２と定義した場合にｐ２ ^２ で表現されるパラメータ A method for correcting glare contrast according to the present disclosure includes:
A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared , which is measured under a second measurement condition different from the first measurement condition , and information indicating the second measurement condition;
compensating the second glare contrast based on the ratio of the first measurement condition and the second measurement condition for comparison with the first glare contrast ;
A method for correcting glare contrast, wherein the step of correcting the second glare contrast is performed according to the following formula (1) .
SP2a =SP2 _* ( _F2 /F1)*(d2/d1)*(f1/f2)*(M2/M1) ^0.5 (1)
however,
S _P 2a: Second glare contrast after correction
S _P 2: Second glare contrast before correction
F1: image-side effective F value of the first imaging lens as the first measurement condition;
F2: the image-side effective F value of the second imaging lens as the second measurement condition;
d1: distance from the antiglare layer to the first imaging lens as the first measurement condition
d2: distance from the antiglare layer to the second imaging lens as the second measurement condition
f1: effective focal length of the first imaging lens as the first measurement condition;
f2: effective focal length of the second imaging lens as the second measurement condition;
M1: a value shown in the following formula (2);
M2: a value shown in the following formula (3)

however,
Ac1: A parameter expressed by (((4/π)×F1×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ
Am1: A parameter expressed by p12 when the pixel pitch of the first ^two -dimensional image sensor as the first measurement condition is defined as p1
erf: standard error function

however,
Ac2: A parameter expressed by (((4/π)×F2×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ
Am2: A parameter expressed by p2 ² when the pixel pitch of the second two-dimensional image sensor as the second measurement condition is defined as p2

但し、
Ａｃ１：前記出射光の波長をλと定義した場合に（（（４／π）×Ｆ１×λ）／２）^２×πで表現されるパラメータ
Ａｍ１：前記第１の測定条件としての前記第１の２次元イメージセンサの画素ピッチをｐ１と定義した場合にｐ１^２で表現されるパラメータ
ｅｒｆ：標準誤差関数

但し、
Ａｃ２：前記出射光の波長をλと定義した場合に（（（４／π）×Ｆ２×λ）／２）^２×πで表現されるパラメータ
Ａｍ２：前記第２の測定条件としての前記第２の２次元イメージセンサの画素ピッチをｐ２と定義した場合にｐ２^２で表現されるパラメータ A method for correcting glare contrast according to the present disclosure includes:
A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared, which is measured under a second measurement condition different from the first measurement condition, and information indicating the second measurement condition;
compensating the second glare contrast based on the ratio of the first measurement condition and the second measurement condition for comparison with the first glare contrast;
The step of correcting the second glare contrast is performed according to Equation (4) below .
_SP2a = _SP2 ×(F2/F1)×(m1/m2)×(M2/M1) ^0.5 (4)
however,
SP 2a: Second glare contrast after correction SP 2: Second glare contrast before correction F1: Image _- side effective _F value of the first imaging lens as the first measurement condition,
F2: the image-side effective F value of the second imaging lens as the second measurement condition;
m1: Magnification of the first imaging lens as the first measurement condition m2: Magnification of the second imaging lens as the second measurement condition M1: Value shown in the following formula (2),
M2: a value shown in the following formula (3)

however,
Ac1: a parameter represented by (((4/π)×F1×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am1: the first measurement condition as the first measurement condition A parameter expressed by p1 ² when the pixel pitch of the two-dimensional image sensor is defined as p1 erf: standard error function

however,
Ac2: a parameter represented by (((4/π)×F2×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am2: the second measurement condition as the second measurement condition A parameter expressed by p2 ² when the pixel pitch of the two-dimensional image sensor is defined as p2

但し、
Ａｃ１：前記出射光の波長をλと定義した場合に（（（４／π）×Ｆ１×λ）／２）^２×πで表現されるパラメータ
Ａｍ１：前記第１の測定条件としての前記第１の２次元イメージセンサの画素ピッチをｐ１と定義した場合にｐ１^２で表現されるパラメータ
ｅｒｆ：標準誤差関数

但し、
Ａｃ２：前記出射光の波長をλと定義した場合に（（（４／π）×Ｆ２×λ）／２）^２×πで表現されるパラメータ
Ａｍ２：前記第２の測定条件としての前記第２の２次元イメージセンサの画素ピッチをｐ２と定義した場合にｐ２^２で表現されるパラメータ A method for correcting glare contrast according to the present disclosure includes :
A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared, which is measured under a second measurement condition different from the first measurement condition, and information indicating the second measurement condition;
compensating the second glare contrast based on the ratio of the first measurement condition and the second measurement condition for comparison with the first glare contrast;
The step of correcting the second glare contrast is performed according to Equation (5) below .
_SP2a = _SP2 ×(F2′/F1′)×(M2/M1) ^0.5 (5)
however,
SP 2a: Second glare contrast after correction SP 2: Second glare contrast before correction F1′: Object _- side effective _F value of the first imaging lens as the first measurement condition,
F2′: the object-side effective F value of the second imaging lens as the second measurement condition;
M1: a value shown in the following formula (2);
M2: a value shown in the following formula (3)

however,
Ac1: a parameter represented by (((4/π)×F1×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am1: the first measurement condition as the first measurement condition A parameter expressed by p1 ² when the pixel pitch of the two-dimensional image sensor is defined as p1 erf: standard error function

however,
Ac2: a parameter represented by (((4/π)×F2×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am2: the second measurement condition as the second measurement condition A parameter expressed by p2 ² when the pixel pitch of the two-dimensional image sensor is defined as p2

但し、
Ｒ１：前記第１の２次元イメージセンサ上の前記回折限界スポットの大きさ
ｍ１：前記第１の測定条件としての前記第１の撮像レンズの倍率
Ｆ１：前記第１の測定条件としての前記第１の撮像レンズの像側実効Ｆ値、
ｄ１：前記第１の測定条件としての前記防眩層から前記第１の撮像レンズまでの距離、
ｆ１：前記第１の測定条件としての前記第１の撮像レンズの実効焦点距離、
Ｆ１’：前記第１の測定条件としての前記第１の撮像レンズの物体側実効Ｆ値、

但し、
Ｒ２：前記第２の２次元イメージセンサ上の前記回折限界スポットの大きさ
ｍ２：前記第２の測定条件としての前記第２の撮像レンズの倍率
Ｆ２：前記第２の測定条件としての前記第２の撮像レンズの像側実効Ｆ値、
ｄ２：前記第２の測定条件としての前記防眩層から前記第２の撮像レンズまでの距離、
ｆ２：前記第２の測定条件としての前記第２の撮像レンズの実効焦点距離、
Ｆ２’：前記第２の測定条件としての前記第２の撮像レンズの物体側実効Ｆ値 A method for correcting glare contrast according to the present disclosure includes:
A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared , which is measured under a second measurement condition different from the first measurement condition , and information indicating the second measurement condition;
compensating the second glare contrast for comparison with the first glare contrast;
The step of correcting the second glare contrast includes:
When the following formula (6) is established between the first measurement condition and the second measurement condition, between the image of the emitted light captured under the first measurement condition a step of performing a correction calculation on the image of the emitted light captured under the second measurement condition so that the MTFs calculated based on the image are aligned;
obtaining a second glare contrast after correction from the image obtained by the correction calculation;
The method of correcting glare contrast , wherein the step of performing the correcting calculation has a step of adjusting a coefficient of an enhancement filter that adjusts the resolution of the image of the emitted light captured under the second measurement condition .
S1=S2 (6)
however,
S1: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the emitted light on the first two-dimensional image sensor as the first measurement condition, (7) is satisfied.
S2: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the emitted light on the second two-dimensional image sensor as the second measurement condition, (8) is satisfied.

however,
R1: size of the diffraction-limited spot on the first two-dimensional image sensor m1: magnification of the first imaging lens as the first measurement condition F1: the first as the first measurement condition image side effective F value of the imaging lens of
d1: the distance from the antiglare layer to the first imaging lens as the first measurement condition;
f1: effective focal length of the first imaging lens as the first measurement condition;
F1′: the object-side effective F value of the first imaging lens as the first measurement condition;

however,
R2: size of the diffraction-limited spot on the second two-dimensional image sensor m2: magnification of the second imaging lens as the second measurement condition F2: the second as the second measurement condition image side effective F value of the imaging lens of
d2: the distance from the antiglare layer to the second imaging lens as the second measurement condition;
f2: effective focal length of the second imaging lens as the second measurement condition;
F2′: object-side effective F value of the second imaging lens as the second measurement condition

但し、
Ｒ３：前記２次元イメージセンサ上の前記回折限界スポットの大きさ
ｍ３：前記仮想の測定条件としての撮像レンズの倍率
Ｆ３：前記仮想の測定条件としての撮像レンズの像側実効Ｆ値、
ｄ３：前記仮想の測定条件としての防眩層から撮像レンズまでの距離
ｆ３：前記仮想の測定条件としての撮像レンズの実効焦点距離、
Ｆ３’：前記仮想の測定条件としての撮像レンズの物体側実効Ｆ値

但し、
Ｒ４：前記２次元イメージセンサ上の前記回折限界スポットの大きさ
ｍ４：前記実際の測定条件としての撮像レンズの倍率
Ｆ４：前記実際の測定条件としての撮像レンズの像側実効Ｆ値、
ｄ４：前記実際の測定条件としての防眩層から撮像レンズまでの距離
ｆ４：前記実際の測定条件としての撮像レンズの実効焦点距離、
Ｆ４’：前記実際の測定条件としての撮像レンズの物体側実効Ｆ値 A method for correcting glare contrast according to the present disclosure includes:
A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising a virtual imaging lens that forms an image of the light emitted from the antiglare layer and a virtual two-dimensional image on which the emitted light is formed. a step of obtaining a third glare contrast as a comparison reference, which is virtually measured under virtual measurement conditions using a sensor , and information indicating the virtual measurement conditions;
Glare contrast caused by the antiglare layer, actual measurement using an actual imaging lens that images the light emitted from the antiglare layer and an actual two-dimensional image sensor on which the light emitted from the antiglare layer is imaged. a step of acquiring a fourth glare contrast to be compared and information indicating the actual measurement conditions actually measured under the conditions;
compensating the fourth glare contrast for comparison with the third glare contrast;
The step of correcting the fourth glare contrast includes:
correcting the fourth glare contrast according to the following equation (10) when the following equation (9) holds between the virtual measurement conditions and the actual measurement conditions; Contrast correction method.
S3≠S4 (9)
_SP 4a= _SP 4×(S4/S3) (10)
however,
S3: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the light emitted from the antiglare layer onto the two-dimensional image sensor as the virtual measurement condition, (11) is satisfied.
S4: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the light emitted from the antiglare layer onto the two-dimensional image sensor as the actual measurement condition, which is expressed by the following formula (12) is satisfied.
SP _4a : Fourth glare contrast after correction SP 4: Fourth _glare contrast before correction

however,
R3: size of the diffraction-limited spot on the two-dimensional image sensor m3: magnification of the imaging lens as the virtual measurement condition F3: image-side effective F value of the imaging lens as the virtual measurement condition,
d3: the distance from the antiglare layer to the imaging lens as the virtual measurement condition f3: the effective focal length of the imaging lens as the virtual measurement condition,
F3′: Object-side effective F value of the imaging lens as the virtual measurement condition

however,
R4: size of the diffraction-limited spot on the two-dimensional image sensor m4: magnification of the imaging lens as the actual measurement condition F4: image-side effective F value of the imaging lens as the actual measurement condition,
d4: the distance from the antiglare layer to the imaging lens as the actual measurement condition f4: the effective focal length of the imaging lens as the actual measurement condition,
F4': Object-side effective F value of the imaging lens as the actual measurement condition

A method for selecting an antiglare layer according to the present disclosure includes:
selecting an antiglare layer using the glare contrast comparison method;
The step of selecting the antiglare layer includes:
As the glare contrast used as the comparison standard, the glare contrast of the electronic display having the first antiglare layer disposed on the surface is applied as the first measurement contrast measured by the first optical measurement device,
As the glare contrast to be compared, the glare contrast of the electronic display on which a second antiglare layer different from the first antiglare layer is arranged on the surface is measured by a second optical measurement device different from the first optical measurement device. applying a second measured contrast measured with the optical measurement device of No. 2,
comparing the first measured contrast and the second measured contrast by the comparison method with correction of one of the contrasts;
selecting one of the first antiglare layer and the second antiglare layer based on the result of the comparison;
have

A method for selecting a display element according to the present disclosure includes:
A step of selecting a display element that is an electronic display on which an antiglare layer is not arranged on the surface using the glare contrast comparison method,
The step of selecting the display element includes:
Applying a third measurement contrast measured by a third optical measurement device with a third antiglare layer disposed on the surface of the first display element as the glare contrast used as the comparison reference,
As the glare contrast to be compared, with the third antiglare layer disposed on the surface of the second display element different from the first display element, the fourth display element different from the third optical measurement device applying a fourth measurement contrast measured by the optical measurement device of
comparing the third measured contrast and the fourth measured contrast by the comparison method with correction of one of the contrasts;
selecting one of the first display element and the second display element based on the result of the comparison;
have

Claims (32)

A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared , which is measured under a second measurement condition different from the first measurement condition , and information indicating the second measurement condition;
compensating the second glare contrast based on the ratio of the first measurement condition and the second measurement condition for comparison with the first glare contrast ;
A method for correcting glare contrast, wherein the step of correcting the second glare contrast is performed according to the following formula (1) .
SP2a =SP2 _* ( _F2 /F1)*(d2/d1)*(f1/f2)*(M2/M1) ^0.5 (1)
however,
S _P 2a: Second glare contrast after correction
S _P 2: Second glare contrast before correction
F1: image-side effective F value of the first imaging lens as the first measurement condition;
F2: the image-side effective F value of the second imaging lens as the second measurement condition;
d1: distance from the antiglare layer to the first imaging lens as the first measurement condition
d2: distance from the antiglare layer to the second imaging lens as the second measurement condition
f1: effective focal length of the first imaging lens as the first measurement condition;
f2: effective focal length of the second imaging lens as the second measurement condition;
M1: a value shown in the following formula (2);
M2: a value shown in the following formula (3)

however,
Ac1: A parameter expressed by (((4/π)×F1×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ
Am1: A parameter expressed by p12 when the pixel pitch of the first ^two -dimensional image sensor as the first measurement condition is defined as p1
erf: standard error function

however,
Ac2: A parameter expressed by (((4/π)×F2×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ
Am2: A parameter expressed by p2 ² when the pixel pitch of the second two-dimensional image sensor as the second measurement condition is defined as p2 A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared, which is measured under a second measurement condition different from the first measurement condition, and information indicating the second measurement condition;
compensating the second glare contrast based on the ratio of the first measurement condition and the second measurement condition for comparison with the first glare contrast;
A method for correcting glare contrast, wherein the step of correcting the second glare contrast is performed according to the following formula (4).
_SP2a = _SP2 ×(F2/F1)×(m1/m2)×(M2/M1) ^0.5 (4)
however,
SP 2a: Second glare contrast after correction SP 2: Second glare contrast before correction F1: Image _- side effective _F value of the first imaging lens as the first measurement condition,
F2: the image-side effective F value of the second imaging lens as the second measurement condition;
m1: Magnification of the first imaging lens as the first measurement condition m2: Magnification of the second imaging lens as the second measurement condition M1: Value shown in the following formula (2),
M2: a value shown in the following formula (3)

however,
Ac1: a parameter represented by (((4/π)×F1×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am1: the first measurement condition as the first measurement condition A parameter expressed by p1 ² when the pixel pitch of the two-dimensional image sensor is defined as p1 erf: standard error function

however,
Ac2: a parameter represented by (((4/π)×F2×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am2: the second measurement condition as the second measurement condition A parameter expressed by p2 ² when the pixel pitch of the two-dimensional image sensor is defined as p2 A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared, which is measured under a second measurement condition different from the first measurement condition, and information indicating the second measurement condition;
compensating the second glare contrast based on the ratio of the first measurement condition and the second measurement condition for comparison with the first glare contrast;
A method for correcting glare contrast, wherein the step of correcting the second glare contrast is performed according to the following formula (5).
_SP2a = _SP2 ×(F2′/F1′)×(M2/M1) ^0.5 (5)
however,
SP 2a: Second glare contrast after correction SP 2: Second glare contrast before correction F1′: Object _- side effective _F value of the first imaging lens as the first measurement condition,
F2′: the object-side effective F value of the second imaging lens as the second measurement condition;
M1: a value shown in the following formula (2);
M2: a value shown in the following formula (3)

however,
Ac1: a parameter represented by (((4/π)×F1×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am1: the first measurement condition as the first measurement condition A parameter expressed by p1 ² when the pixel pitch of the two-dimensional image sensor is defined as p1 erf: standard error function

however,
Ac2: a parameter represented by (((4/π)×F2×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am2: the second measurement condition as the second measurement condition A parameter expressed by p2 ² when the pixel pitch of the two-dimensional image sensor is defined as p2 A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising: a first imaging lens that forms an image of light emitted from the antiglare layer; and a first imaging lens that forms an image of the emitted light. acquiring a first glare contrast as a comparison reference measured under a first measurement condition using a dimensional image sensor and information indicating the first measurement condition;
The glare contrast produced by the antiglare layer is obtained by using a second imaging lens that forms an image of light emitted from the antiglare layer and a second two-dimensional image sensor that forms an image of the emitted light. obtaining a second glare contrast to be compared , which is measured under a second measurement condition different from the first measurement condition , and information indicating the second measurement condition;
compensating the second glare contrast for comparison with the first glare contrast;
The step of correcting the second glare contrast includes:
When the following formula (6) is established between the first measurement condition and the second measurement condition, between the image of the emitted light captured under the first measurement condition a step of performing a correction calculation on the image of the emitted light captured under the second measurement condition so that the MTFs calculated based on the image are aligned;
obtaining a second glare contrast after correction from the image obtained by the correction calculation;
The method of correcting glare contrast , wherein the step of performing the correcting calculation has a step of adjusting a coefficient of an enhancement filter that adjusts the resolution of the image of the emitted light captured under the second measurement condition .
S1=S2 (6)
however,
S1: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the emitted light on the first two-dimensional image sensor as the first measurement condition, (7) is satisfied.
S2: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the emitted light on the second two-dimensional image sensor as the second measurement condition, (8) is satisfied.

however,
R1: size of the diffraction-limited spot on the first two-dimensional image sensor m1: magnification of the first imaging lens as the first measurement condition F1: the first as the first measurement condition image side effective F value of the imaging lens of
d1: the distance from the antiglare layer to the first imaging lens as the first measurement condition;
f1: effective focal length of the first imaging lens as the first measurement condition;
F1′: the object-side effective F value of the first imaging lens as the first measurement condition;

however,
R2: the size of the diffraction-limited spot on the second two-dimensional image sensor m2: the magnification of the second imaging lens as the second measurement condition F2: the second as the second measurement condition image side effective F value of the imaging lens of
d2: the distance from the antiglare layer to the second imaging lens as the second measurement condition;
f2: effective focal length of the second imaging lens as the second measurement condition;
F2′: object-side effective F value of the second imaging lens as the second measurement condition The step of performing the correction calculation includes:
generating an edge profile of the image of the emitted light captured under the second measurement condition;
calculating a line spread function by differentiating the generated edge profile;
calculating an MTF by Fourier transforming the calculated line spread function;
5. The method of correcting glare contrast according to claim 4 , further comprising comparing the calculated MTF with an MTF based on an image of the emitted light captured under the first measurement condition. The step of correcting the second glare contrast includes the step of performing correction calculation on the image of the emitted light captured under the second measurement condition, and the corrected image from the image obtained by the correction calculation. Between the step of obtaining the second glare contrast, the radiance average value of the image obtained by the correction calculation is the radiance average of the image of the emitted light captured under the first measurement condition. 6. A method for correcting glare contrast according to claim 4 , comprising the step of aligning values. The step of correcting the second glare contrast includes performing a correction operation on the image of the emitted light captured under the second measurement condition, and averaging the radiance of the image obtained by the correction operation. an image produced by pixels of the electronic display from the image obtained by the correction operation between the step of aligning the values to the average radiance of the image of the emitted light taken under the first measurement condition; 7. A method for correcting glare contrast according to claim 6 , comprising the step of removing components. A glare contrast caused by an antiglare layer disposed on the surface of an electronic display, comprising a virtual imaging lens that forms an image of the light emitted from the antiglare layer and a virtual two-dimensional image on which the emitted light is formed. a step of obtaining a third glare contrast as a comparison reference, which is virtually measured under virtual measurement conditions using a sensor , and information indicating the virtual measurement conditions;
Glare contrast caused by the antiglare layer, actual measurement using an actual imaging lens that images the light emitted from the antiglare layer and an actual two-dimensional image sensor on which the light emitted from the antiglare layer is imaged. a step of acquiring a fourth glare contrast to be compared and information indicating the actual measurement conditions actually measured under the conditions;
compensating the fourth glare contrast for comparison with the third glare contrast;
The step of correcting the fourth glare contrast includes:
correcting the fourth glare contrast according to the following equation (10) when the following equation (9) holds between the virtual measurement conditions and the actual measurement conditions; Contrast correction method.
S3≠S4 (9)
_SP 4a= _SP 4×(S4/S3) (10)
however,
S3: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the light emitted from the antiglare layer onto the two-dimensional image sensor as the virtual measurement condition, (11) is satisfied.
S4: The size of the light-emitting region on the antiglare layer that contributes to the imaging of the diffraction-limited spot of the light emitted from the antiglare layer onto the two-dimensional image sensor as the actual measurement condition, which is expressed by the following formula (12) is satisfied.
SP _4a : Fourth glare contrast after correction SP 4: Fourth _glare contrast before correction

however,
R3: size of the diffraction-limited spot on the two-dimensional image sensor m3: magnification of the imaging lens as the virtual measurement condition F3: image-side effective F value of the imaging lens as the virtual measurement condition,
d3: the distance from the antiglare layer to the imaging lens as the virtual measurement condition f3: the effective focal length of the imaging lens as the virtual measurement condition,
F3′: Object-side effective F value of the imaging lens as the virtual measurement condition

however,
R4: size of the diffraction-limited spot on the two-dimensional image sensor m4: magnification of the imaging lens as the actual measurement condition F4: image-side effective F value of the imaging lens as the actual measurement condition,
d4: the distance from the antiglare layer to the imaging lens as the actual measurement condition f4: the effective focal length of the imaging lens as the actual measurement condition,
F4': Object-side effective F value of the imaging lens as the actual measurement condition 9. The method of correcting glare contrast according to claim 8 , wherein the step of correcting the fourth glare contrast further comprises the step of correcting the fourth glare contrast according to Equation (13) below.
_{SP 4a} ′= _{SP 4a} ×(M4/M3) ^0.5 (13)
however,
S _P 4a′: Fourth glare contrast after correction according to Equation (13) M3: Value shown in Equation (14) below;
M4: a value shown in the following formula (15)

however,
Ac3: A parameter represented by (((4/π)×F3×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am3: A two-dimensional image sensor as the virtual measurement condition parameter expressed by p3 ² when the pixel pitch of is defined as p3 erf: standard error function

however,
Ac4: A parameter represented by (((4/π)×F4×λ)/2) ² ×π when the wavelength of the emitted light is defined as λ Am4: A two-dimensional image sensor as the virtual measurement condition A parameter expressed by p4 ² when the pixel pitch of is defined as p4 Between the first measurement condition and the second measurement condition or between the virtual measurement condition and the actual measurement condition, the electronic display, the antiglare layer, the imaging lens and the two-dimensional A measurement device equipped with an image sensor has the same structural conditions, and the measurement conditions using the measurement device including the distance from the antiglare layer to the imaging lens are different. 10. The method for correcting glare contrast according to any one of items 1 to 5 , 8 and 9 . Between the first measurement condition and the second measurement condition or between the virtual measurement condition and the actual measurement condition, there are structural conditions for each of the electronic display and the antiglare layer. A relationship is established in which the structural conditions of a measuring device that is the same and includes an imaging lens and a two-dimensional image sensor and the measurement conditions using the measuring device, including the distance from the antiglare layer to the imaging lens, are different. 10. The method for correcting glare contrast according to any one of claims 1 to 5 , 8 and 9 . Between the first measurement condition and the second measurement condition or between the virtual measurement condition and the actual measurement condition, measurement comprising the electronic display, an imaging lens, and a two-dimensional image sensor The structural conditions of the device and are the same, and the structural conditions of the antiglare layer and the measurement conditions using the measurement device including the distance from the antiglare layer to the imaging lens are different. 10. The method of correcting glare contrast according to any one of claims 1 to 5 , 8 and 9 , wherein a relationship holds. A step of comparing a glare contrast to be compared corrected by the glare contrast correction method according to any one of claims 1 to 12 with a comparison reference glare contrast, Comparison method. 14. The glare contrast comparison method according to claim 13 , further comprising the step of outputting a comparison result between the corrected glare contrast to be compared and the comparison reference glare contrast. comprising a step of inspecting whether the electronic display to be inspected satisfies the glare contrast acceptance criteria;
The inspecting step has a comparing step according to claim 13 ,
The step of comparing
The glare contrast of the electronic display to be inspected is applied as one of the glare contrast to be compared and the glare contrast to be compared, and the glare contrast to be compared and the glare to be comparison reference are applied. A method of manufacturing an electronic display comprising: applying the acceptable glare contrast as the other of the contrasts, and comparing the glare contrast of the electronic display under test to the acceptable glare contrast. The electronic display to be inspected is an electronic display on which an antiglare layer is not arranged on the surface, and in the step of inspecting, an antiglare layer for inspection is arranged on the surface in order to measure glare contrast,
16. The method of manufacturing an electronic display according to claim 15 , wherein the inspection antiglare layer is an antiglare layer having predetermined properties. 16. The method of manufacturing an electronic display according to claim 15 , wherein the electronic display to be inspected is an electronic display having an antiglare layer disposed on its surface. forming an antiglare layer to be inspected;
a step of inspecting whether the antiglare layer to be inspected satisfies acceptance criteria for glare contrast;
The inspecting step has a comparing step according to claim 13 ,
The step of comparing
As one of the glare contrast to be compared and the glare contrast to be the comparison reference, the glare contrast of the electronic display having the antiglare layer disposed on the surface of the inspection object is applied, and the glare to be the comparison object The acceptance criterion glare contrast is applied as the other of the contrast and the comparison criterion glare contrast, and the glare contrast of the electronic display to be inspected, on which the antiglare layer is arranged, is defined as the acceptance criterion glare contrast. A method for producing an antiglare layer, comprising a step of comparing contrast. The antiglare layer to be inspected is placed on the surface of an electronic display for inspection to measure glare contrast in the inspecting step,
19. The method of manufacturing an antiglare layer according to claim 18 , wherein the electronic display for inspection is an electronic display having predetermined characteristics. The step of forming the antiglare layer to be inspected includes:
Having a step of providing a layer having an antiglare function on the base material,
The method for producing an antiglare layer according to claim 18 or 19 . The step of providing the layer having the antiglare function on the base material includes:
a step of applying an antiglare layer composition containing a resin onto the substrate;
a step of curing the applied antiglare layer composition;
The method for producing an antiglare layer according to claim 20 , comprising: An antiglare layer manufactured using the method for manufacturing an antiglare layer according to any one of claims 18 to 21 . A correction unit that corrects the glare contrast to be compared using the glare contrast correction method according to any one of claims 1 to 12 ;
A comparison device for glare contrast, comprising a comparison unit for comparing corrected glare contrast to be compared with glare contrast to be compared. A step of selecting an antiglare layer using the glare contrast comparison method according to claim 13 ,
The step of selecting the antiglare layer includes:
As the glare contrast used as the comparison standard, the glare contrast of the electronic display having the first antiglare layer disposed on the surface is applied as the first measurement contrast measured by the first optical measurement device,
As the glare contrast to be compared, the glare contrast of the electronic display on which a second antiglare layer different from the first antiglare layer is arranged on the surface is measured by a second optical measurement device different from the first optical measurement device. applying a second measured contrast measured with the optical measurement device of No. 2,
comparing the first measured contrast and the second measured contrast by the comparison method with correction of one of the contrasts;
selecting one of the first antiglare layer and the second antiglare layer based on the result of the comparison;
A method for selecting an antiglare layer having 25. The step of selecting one of the antiglare layers comprises the step of selecting a corresponding antiglare layer with good measured contrast from the first antiglare layer and the second antiglare layer. The method for selecting the antiglare layer described in . An antiglare layer selected by the method for selecting an antiglare layer according to claim 24 or 25 . A polarizing plate equipped with an antiglare layer selected by the method for selecting an antiglare layer according to claim 24 or 25 . A display element equipped with an antiglare layer selected by the method for selecting an antiglare layer according to claim 24 or 25 . An electronic display equipped with an antiglare layer selected by the method for selecting an antiglare layer according to claim 24 or 25 . A step of selecting a display element using the glare contrast comparison method according to claim 13 ,
The step of selecting the display element includes:
Applying a third measurement contrast measured by a third optical measurement device with a third antiglare layer disposed on the surface of the first display element as the glare contrast used as the comparison reference,
As the glare contrast to be compared, with the third antiglare layer disposed on the surface of the second display element different from the first display element, the fourth display element different from the third optical measurement device applying a fourth measurement contrast measured by the optical measurement device of
comparing the third measured contrast and the fourth measured contrast by the comparison method with correction of one of the contrasts;
selecting one of the first display element and the second display element based on the result of the comparison;
A method for selecting a display element having 31. The display of claim 30 , wherein selecting one display element comprises selecting the display element of the first display element and the second display element having a corresponding good measured contrast. Element selection method. An electronic display comprising a display element selected by the display element selection method according to claim 30 or 31 .